/**
* Loads only tuple data, not schema, from the serialized tile.
* Used for initial data loading.
* @param allow_export if false, export enabled is overriden for this load.
*/
void Tile::DeserializeTuplesFrom(SerializeInput &input,
type::AbstractPool *pool) {
/*
* Directly receives a Tile buffer.
* [00 01] [02 03] [04 .. 0x]
* rowstart colcount colcount * 1 byte (column types)
*
* [0x+1 .. 0y]
* colcount * strings (column names)
*
* [0y+1 0y+2 0y+3 0y+4]
* rowcount
*
* [0y+5 .. end]
* rowdata
*/
input.ReadInt(); // rowstart
input.ReadByte();
oid_t column_count = input.ReadShort();
PL_ASSERT(column_count > 0);
// Store the following information so that we can provide them to the user on
// failure
type::Type::TypeId types[column_count];
std::vector<std::string> names;
// Skip the column types
for (oid_t column_itr = 0; column_itr < column_count; ++column_itr) {
types[column_itr] = (type::Type::TypeId)input.ReadEnumInSingleByte();
}
// Skip the column names
for (oid_t column_itr = 0; column_itr < column_count; ++column_itr) {
names.push_back(input.ReadTextString());
}
// Check if the column count matches what the temp table is expecting
if (column_count != schema.GetColumnCount()) {
std::stringstream message(std::stringstream::in | std::stringstream::out);
message << "Column count mismatch. Expecting " << schema.GetColumnCount()
<< ", but " << column_count << " given" << std::endl;
message << "Expecting the following columns:" << std::endl;
message << schema.GetColumnCount() << std::endl;
message << "The following columns are given:" << std::endl;
for (oid_t column_itr = 0; column_itr < column_count; column_itr++) {
message << "column " << column_itr << ": " << names[column_itr]
<< ", type = " << types[column_itr] << std::endl;
}
throw SerializationException(message.str());
}
// Use the deserialization routine skipping header
DeserializeTuplesFromWithoutHeader(input, pool);
}
/**
* Loads only tuple data and assumes there is no schema present.
* Used for recovery where the schema is not sent.
* @param allow_export if false, export enabled is overriden for this load.
*/
void Tile::DeserializeTuplesFromWithoutHeader(SerializeInput &input,
type::AbstractPool *pool) {
oid_t tuple_count = input.ReadInt();
PL_ASSERT(tuple_count > 0);
// First, check if we have required space
PL_ASSERT(tuple_count <= num_tuple_slots);
storage::Tuple *temp_tuple = new storage::Tuple(&schema, true);
for (oid_t tuple_itr = 0; tuple_itr < tuple_count; ++tuple_itr) {
temp_tuple->Move(GetTupleLocation(tuple_itr));
temp_tuple->DeserializeFrom(input, pool);
// TRACE("Loaded new tuple #%02d\n%s", tuple_itr,
// temp_target1.debug(Name()).c_str());
}
}
/**
* Therefore a SeqScanPlan is serialized as:
* [(int) total size]
* [(int8_t) plan type]
* [(int) database_id]
* [(int) table_id]
* [(int) num column_id]
* [(int) column id...]
* [(int8_t) expr type] : if invalid, predicate is null
* [(bytes) predicate] : predicate is Expression
* [(int8_t) plan type] : if invalid, parent is null
* [(bytes) parent] : parent is also a plan
*/
bool SeqScanPlan::DeserializeFrom(SerializeInput &input) {
// Read the size of SeqScanPlan class
input.ReadInt();
// Read the type
UNUSED_ATTRIBUTE PlanNodeType plan_type =
(PlanNodeType)input.ReadEnumInSingleByte();
PL_ASSERT(plan_type == GetPlanNodeType());
// Read database id
oid_t database_oid = input.ReadInt();
// Read table id
oid_t table_oid = input.ReadInt();
// Get table and set it to the member
storage::DataTable *target_table = static_cast<storage::DataTable *>(
catalog::Catalog::GetInstance()->GetTableWithOid(database_oid, table_oid));
SetTargetTable(target_table);
// Read the number of column_id and set them to column_ids_
oid_t columnid_count = input.ReadInt();
for (oid_t it = 0; it < columnid_count; it++) {
oid_t column_id = input.ReadInt();
SetColumnId(column_id);
}
// Read the type
ExpressionType expr_type = (ExpressionType)input.ReadEnumInSingleByte();
// Predicate deserialization
if (expr_type != EXPRESSION_TYPE_INVALID) {
switch (expr_type) {
// case EXPRESSION_TYPE_COMPARE_IN:
// predicate_ =
// std::unique_ptr<EXPRESSION_TYPE_COMPARE_IN>(new
// ComparisonExpression (101));
// predicate_.DeserializeFrom(input);
// break;
default: {
LOG_ERROR(
"Expression deserialization :: Unsupported EXPRESSION_TYPE: %u ",
expr_type);
break;
}
}
}
// Read the type of parent
PlanNodeType parent_type = (PlanNodeType)input.ReadEnumInSingleByte();
// Parent deserialization
if (parent_type != PLAN_NODE_TYPE_INVALID) {
switch (expr_type) {
// case EXPRESSION_TYPE_COMPARE_IN:
// predicate_ =
// std::unique_ptr<EXPRESSION_TYPE_COMPARE_IN>(new
// ComparisonExpression (101));
// predicate_.DeserializeFrom(input);
// break;
default: {
LOG_ERROR("Parent deserialization :: Unsupported PlanNodeType: %u ",
expr_type);
break;
}
}
}
return true;
}
